MIT Department of Biology 7.013: Introductory Biology - Spring 2005

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MIT Department of Biology
7.013: Introductory Biology - Spring 2005
Instructors: Professor Hazel Sive, Professor Tyler Jacks, Dr. Claudette Gardel
Ames Test - Section
The Ames test is commonly used as an efficient and inexpensive test for the mutagenic property
of substances. Bacteria that are deficient in histidine biosynthesis (His-) are spread on solid agar
containing inorganic salts and sugars (minimal medium). Minimal medium does not contain the
amino acid histidine or any other amino acid supplements. On minimal medium, the his- bacteria
will not grow unless they undergo a reversion mutation. In the Ames test, His- bacteria are mixed
with a substance and spread on minimal medium (plated). If the substance is mutagenic, some of
the bacteria will undergo a reversion mutation and be able to grow in the absence of histidine. If
the chemical is not mutagenic then the bacteria will not grow.
When a bacterial strain deficient in histidine biosynthesis (His-), is plated for confluent
growth (about 1 X1 0 6) on minimal medium (containing only inorganic salts and sugar), it
does not grow (See below). However, the bacteria grow when plated coated with a
mystery substance on minimal medium (substances #1 and #2.)
RICH MEDIUM
MINIMAL MEDIUM
MIN + ? #1
MIN +? #2
a) Why did we plate on rich medium and minimal medium with no additions?What are these called?
Controls
b) What are two possibilities for the identities of the mystery substances?
Indicate which type of mystery substance corresponds with the growth on each plate.
The mystery substance could either be histidine itself (or something containing histidine), or a mutagen. If
you add histidine itself, then all of the bacteria plated should grow #2). If a mutagen is added, then only a
subset of the bacteria, those in which a reversion mutation has occurred, will grow (#1).
c) You perform a series of experiments in which you plate proteins purified from
soybeans along with the His- bacteria on minimal medium. You find that the bacteria
confluently grow on almost all of the plates. Does this mean that soybean proteins are
mutagens, or could there be another explanation?
Most proteins contain histidine. When these proteins are broken down, they can be a source of histidine,
thereby enabling the bacteria to grow.
d) If the mystery substance #1 is a mutagen, how would that enable the bacteria to grow
in the absence of histidine?
The mutagen could cause a new mutation in the already mutant allele of the gene encoding the enzyme
involved in histidine biosynthesis. This mutation could either restore wildtype sequence or make a
compensating change (addition of the right number of basepairs to restore frame, or change a second
basepair to restore the amino acid encoded). By “fixing” the gene, the mutation will also fix the protein
product, and thus restore the phenotype to wildtype.
e) In this next experiment you have two bacterial strains that are deficient in histidine
biosynthesis. One has a single base-pair substitution (Strain A) and the other has a frameshift
(deletion) mutation (Strain B). You isolate the mutant histidine biosynthesis enzyme from Strain
A and find that it differs from wildtype at only one amino acid. You isolate the mutant histidine
biosynthesis enzyme from strain B and find that it is nearly full length, but only the first 50
amino acids are wildtype. You plate each strain either alone, with the addition of histidine, or with
the addition of either drug X or drug Z. You then examine plates 1-8. The results are summarized
below.
There are two mutagenic drugs used.
One drug causes the replacement of a G-C pair with an A-T pair.
The other drug causes the insertion or deletion of a single base-pair.
Examples of mutagenic drugs:
Ethylmethanesulfonate (EMS), GCAT transitions
Nitrosoguanidine (NG), GCAT transitions
Proflavin – intercalating agent  frameshift
Acridine orange – intercalating agent  frameshift
ICR-191 – intercalating agent  frameshift
Plate #
Strain #
1
A
2
A
3
A
4
A
5
B
6
B
7
B
8
B
Medium
Minimal
Minimal +
histidine
Minimal +
drug X
Minimal +
drug Z
Minimal
Minimal +
histidine
Minimal +
drug X
Minimal +
drug Z
-
++++
+
-
-
++++
-
+
Growth?
Explain why drug X enables strain A to grow on minimal medium, but does not have the
same effect on strain B? Explain why drug Z enables strain B to grow on minimal medium,
but does not have this effect on strain A?
Strain A has a point mutation (single base-pair substitution) and strain B has a frameshift mutation (either deletion or
insertion of base-pair(s)). Therefore drug X is likely to cause single base-pair substitution mutations and restore the
wildtype sequence in strain A, thus allowing it to synthesize histidine. Drug Z causes the insertion or deletion of basepairs and therefore will restore the reading frame in strain B (but not necessarily make the whole protein wildtype),
thus allowing it to synthesize histidine.
f) If you examine many control plates (lacking histidine and without the addition of a drug – minimal plates)
you find the occasional colony with both strains A and B. Explain the presence of these colonies.
Spontaneous reversion mutations will occur at a very low frequency.
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